Hui Bryan Yat Kit, Chin Kang Le Osmund, Lim Jovan Jun Long, Soo Xiang Yun Debbie, Lu Xuehong, Zhu Qiang, Liu Xiaogang, Xu Jianwei, Chua Ming Hui
Institute of Sustainability for Chemicals, Energy and Environment (ISCE2), Agency for Science, Technology and Research (A*STAR), Singapore, 1 Pesek Road, Jurong Island, Singapore, 627833.
Science, Math and Technology Cluster, Singapore University of Technology and Design (SUTD), Singapore, 8 Somapah Road, Singapore, 487372.
Chem Asian J. 2024 Jun 17;19(12):e202400236. doi: 10.1002/asia.202400236. Epub 2024 May 17.
A series of conjugated polymers bearing thiophene-based donors and pyromellitic diimide (PMDI) acceptor were prepared, and their electrochromic (EC) properties were studied via using fabricated thin-film EC devices. It was observed that structurally regular alternating polymers with fewer (1 and 2) thiophene donors do not exhibit any EC properties while increasing the number of donors eventually led to the emergence of orange-red-to-green colour switching. On this basis, two more random co-polymers containing higher donor-to-acceptor ratios were synthesized to further improve EC switching properties. The two polymers, which bear a PMDI-to-thiophene ratio of ca. 1 : 7 and 1 : 8, revealed orange red-to-blue colour switching and generally improved optical contrasts and switching speeds in both the visible and near infra-red (NIR) region. In addition, the subtle modulation of polymer colour and hue via variation of the number of thiophene donors was evident through colorimetric study. This work therefore demonstrates the potential and possibility of using the PMDI acceptor unit to construct EC-active conjugated polymers, and considerations for future tuning of colour and switching performances.
制备了一系列带有噻吩基供体和均苯四甲酸二酰亚胺(PMDI)受体的共轭聚合物,并通过使用制备的薄膜电致变色(EC)器件研究了它们的电致变色性能。观察到具有较少(1个和2个)噻吩供体的结构规则的交替聚合物不表现出任何电致变色性能,而增加供体数量最终导致出现橙红色到绿色的颜色切换。在此基础上,合成了另外两种具有更高供体-受体比例的无规共聚物,以进一步改善电致变色切换性能。这两种聚合物的PMDI与噻吩比例约为1 : 7和1 : 8,显示出橙红色到蓝色的颜色切换,并且在可见光和近红外(NIR)区域的光学对比度和切换速度普遍得到改善。此外,通过比色研究可以明显看出,通过改变噻吩供体的数量对聚合物颜色和色调进行的细微调节。因此,这项工作证明了使用PMDI受体单元构建具有电致变色活性的共轭聚合物的潜力和可能性,以及对未来颜色和切换性能调节的考虑。
